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Regulation of Nanomaterials: Design of Nanoparticle Systems by Controllable Assembly and Temporal/Spatial Regulation (Adv. Funct. Mater. 2/2020)
Advanced Functional Materials ( IF 18.5 ) Pub Date : 2020-01-10 , DOI: 10.1002/adfm.202070011 Ruochen Fang 1 , Mingjie Liu 1 , Lei Jiang 1, 2
Advanced Functional Materials ( IF 18.5 ) Pub Date : 2020-01-10 , DOI: 10.1002/adfm.202070011 Ruochen Fang 1 , Mingjie Liu 1 , Lei Jiang 1, 2
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In article number 1903351, Mingjie Liu, Lei Jiang, and Ruochen Fang discuss how various nanoparticles can be regulated from four angles including control of interparticle interactions (noncovalent bonds, magnetic, electrostatic, Van der Waals forces etc.), ligand engineering (ligand exchange and ligand collapse), temporal regulation (such as lifetime of active species), and spatial regulation (such as distribution of active species). The final products have application potentials in multiplexing, analyte‐detection, and photocatalysis.
中文翻译:
纳米材料的调节:通过可控制的组装和时空调节来设计纳米颗粒系统(Adv。Funct。Mater。2/2020)
在1903351号文章中,刘明杰,江磊和方若尘讨论了如何从四个角度调节各种纳米颗粒,包括控制颗粒间的相互作用(非共价键,电磁,静电,范德华力等),配体工程(配体交换)和配体崩溃),时间调节(例如活性物质的寿命)和空间调节(例如活性物质的分布)。最终产品在多路复用,分析物检测和光催化方面具有应用潜力。
更新日期:2020-01-11
中文翻译:
纳米材料的调节:通过可控制的组装和时空调节来设计纳米颗粒系统(Adv。Funct。Mater。2/2020)
在1903351号文章中,刘明杰,江磊和方若尘讨论了如何从四个角度调节各种纳米颗粒,包括控制颗粒间的相互作用(非共价键,电磁,静电,范德华力等),配体工程(配体交换)和配体崩溃),时间调节(例如活性物质的寿命)和空间调节(例如活性物质的分布)。最终产品在多路复用,分析物检测和光催化方面具有应用潜力。
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